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Transcript
C I T Y
O F
S U R R E Y
Parks, Recreation and Culture Department
Natural Areas: Vegetation
Management Strategy
Greg Ward
Manager, Park Urban Forestry and Environmental Services
Shawn Gurney
Technician, Park Urban Forestry and Environmental Services
Edited by: Diana Wegner
Professional Writer
Table of Contents
Introduction............................................................................................................... 3
The City’s Mandate to Preserve and Protect Natural Areas ............................. 3
Ecological and Social Benefits ......................................................................... 3
Purpose and Scope ............................................................................................ 4
History............................................................................................................... 4
Current Conditions and Initiatives ........................................................................ 5
Ecosystem Degradation .................................................................................... 5
Counter-productive Management Practices...................................................... 6
Positive Initiatives in Natural Areas ................................................................. 7
Vegetation Management Strategy ............................................................................. 8
Principles........................................................................................................... 8
Goals and Objectives ........................................................................................ 8
Recommendations ................................................................................................... 10
Immediate Recommendations 1–3 years ............................................................. 10
Inventory Data Base........................................................................................ 10
Annual Maintenance Management Program .................................................. 10
Protection ........................................................................................................ 14
Integration ....................................................................................................... 14
Mid-term Recommendations 2–4 years ............................................................... 15
Resources ........................................................................................................ 15
Species Protection........................................................................................... 16
Education and Awareness ............................................................................... 16
Degraded Land Assessment............................................................................ 17
Long-term Recommendations 3-5 years, or as resources allow.................................. 17
Site-Specific Plans and Programs ................................................................... 17
Provision Standards ........................................................................................ 18
Natural Area Fragmentation ........................................................................... 18
Appendix A:............................................................................................................. 20
Rare and Endangered Natural Plant Communities ......................................... 20
Appendix B:............................................................................................................. 24
Rare and Endangered Plant Species................................................................ 24
Appendix C: ............................................................................................................ 27
Invasive Species List....................................................................................... 27
Invasive Species Found in Surrey................................................................... 28
Individual Account of Shrub and Herbaceous Species................................... 28
References ............................................................................................................... 48
2
Introduction
Introduction
The City’s Mandate to Preserve and Protect Natural Areas
Surrey is a diverse region of a wide variety of natural habitats. These natural areas provide
feeding and nesting grounds for wildlife, as well as wintering areas for migrating waterfowl.
As one of Canada’s faster growing cities, Surrey’s large natural areas have been significantly
altered or developed to make way for human settlement. The loss of natural areas within the
region has seriously reduced the numbers of native plants, animals, fish and bird species, to
the degree that some are now designated threatened or endangered, while others have been
completely eliminated from the region.
Surrey has been progressive in setting aside considerable tracts of natural areas as parks, such
as Blackie Spit, Sunnyside and Green Timbers Urban Forests, and acres of forested areas
adjacent to salmon bearing streams. The impetus for these protective measures has come
from both the City and concerned members of the community. For example, Surrey residents
have identified open spaces and stewardship of the natural environment as a significant
concern through the Future Surrey Vision process. As a result, Surrey’s Official Community
Plan (OCP) acknowledges the importance of open natural spaces in a community—both for
recreational purposes and for wildlife habitat—and recognizes the need to preserve and
protect the natural environment. These values are also reflected in the 1996 Parks and
Recreation Master Plan (PRMP), and the Parks, Recreation and Culture Department
incorporates the protection of the natural environment into its mission statement.
The OCP has set guidelines for provision of parklands and open spaces, which are reflected
in five park categories, one of which is, “Nature Preservation and Linkage.” This category
refers to land that is set aside for either, conservation and preservation purposes, or to assist
in providing a network of green linkages throughout the City. Natural areas are broadly
defined as lands that are composed primarily of native vegetation, have significant habitat
value and are being managed as community natural resources.
Although approximately 60% of City parkland is in its natural state, the management of these
natural areas has been ad hoc and without appropriate overall direction. Properly managing
the vegetation is a key to successful overall management of natural areas. The vegetation is
the “engine” from which all other natural area resources and values derive their meaning.
Ecological and Social Benefits
Native plant communities have the greatest influence on wildlife habitat, and ultimately
determine the types of other organisms that will be attracted to natural areas. As primary
producers, plants are fundamental to most other life forms. They are the foundation of our
complex food webs and have the greatest effect on the provision for biodiversity, locally and
globally. In urban settings particularly, natural area vegetation is by far the most critical
vegetation component for mitigating climate change and the negative influences of
urbanization. The following lists highlight some of the many benefits of natural area
vegetation:
3
Introduction
Environmental Benefits
Ecological integrity
Food and shelter for wildlife
Addition of oxygen to the atmosphere
Carbon storing
Erosion control
Moderation of ground temperatures
Moderation of groundwater flows and flood control
Human Benefits
Ecological integrity
Aesthetics and beauty
Noise reduction and pollution control
Economic benefit through enhanced property values
Provision for high demand recreational activities such as walking and biking
Social interaction
Purpose and Scope
The purpose of this Strategy is to provide overall direction to the Parks Division in the
management of natural area vegetation. The Strategy must balance the duality of providing
for recreation in natural areas with protecting the vegetation resource.
This management plan provides background and strategic direction as follows:
A history and assessment of current conditions and initiatives
Vegetation management principles
High level goals and objectives
Specific and prioritized recommendations with implementation timelines for measures
necessary to achieve these objectives
A comprehensive outline of a vegetation management program, with procedures and
guidelines that enable the Parks Division to protect, preserve and enhance the vegetation
resource.
History
Although Surrey has been described as untouched wilderness prior to European settlement,
aboriginal peoples were already actively managing their environment. They often used
selective logging and controlled burning in order to maintain open meadow areas. These
4
Introduction
open areas were used to provide suitable growing conditions for desirable food plants and
forage crops that would attract deer and animals used for food.
Prior to the arrival of non-aboriginal settlers, Surrey was dominated by temperate rainforests
interspersed with areas of grasslands, wetlands and shorelines. Non-forested areas generally
occurred in places that were too wet or too saline for trees to survive or in areas where
disturbances such as fire, wind or disease killed groups of trees, creating open meadows.
Since the arrival of Europeans and other non-aboriginal groups, more extreme and often
drastic changes to the environment have occurred over a relatively short period. Forests have
been eliminated, and wetlands have been drained and dyked for settlement and agriculture.
This fragmentation and loss of wildlife habitat have resulted in a serious significant loss of
biodiversity. Many species are now endangered or threatened and some have already been
eliminated (see Appendix A and B for a list). To compound this degradation, foreign plant
and animals species have been introduced into these areas, further displacing native animals
and vegetation.
Foreign plant species have had a significant impact on native plants and animals, for they are
often resilient and aggressive. For example, Scotch broom, English ivy, purple loosestrife
and European blackberries have successfully out-competed and displaced native plants in
many areas. This elimination of native plant species has resulted in loss of traditional sources
of food and shelter for wildlife.
As the City has urbanized, the last vestiges of the wilderness are found primarily in the
parkland that the City provides. Amongst the many residential subdivisions, commercial core
areas and industrial parks, natural areas are sometimes being preserved as “nature
preservation and linkage parks.” Although approximately 60% of existing parkland is
currently in a natural state, the native vegetation is under considerable urban pressure.
Current Conditions and Initiatives
Natural areas are scattered throughout Surrey in regional parks, City parks, agricultural lands
and special wildlife management areas such as the Serpentine Fen adjacent to Boundary Bay.
Pockets of natural areas also exist in BC Hydro and BC Gas right-of-ways and other privately
held properties. The current situation of vegetation management involves both an
acknowledgement and diagnosis of both the impediments to vegetation health and the current
efforts to redress these problems.
Ecosystem Degradation
Within the City of Surrey natural areas are under enormous pressure due to urbanization
and attendant land clearing. Many are in decline because of damage to local hydrology,
overuse by humans, and misuse through dumping of wastes. Streets, roads, subdivisions,
even cultured areas of parks all contribute to changes that tend to fragment the vegetation
resource, often reducing complete ecosystems to small parts of the whole.
The natural area vegetation in the City of Surrey is subject to the following impacts and
stresses.
5
Introduction
Deforestation and fragmentation
Recreation and general usage
Public attitude toward the ‘untidiness’ of natural areas
Trail clearing and construction activities (sanctioned and unsanctioned)
Land development and drainage alterations
Vandalism and dumping of refuse and yard waste
Excessive, indiscriminate mowing, pruning or thinning practices
Exposure to pollutants
Competition with exotic plant species
Destructive arthropod and pathogen invasions
Soil compaction and topsoil erosion
Counter-productive Management Practices
Parkland management programs have traditionally entailed the application of techniques
and practices founded in the science of horticulture. The essence of these techniques and
practices is the control, manipulation and change of the landscape. Management of
natural area vegetation has been compromised by the application of these practices to a
vegetation resource that is better managed through an eco-sensitive approach that
considers the requirements of native vegetation and the wildlife habitat with due
consideration to the needs of people.
For instance, many natural areas have been planted with ornamental tree cultivars, as
“improvements” to the native plant communities. The management practice of
mechanized mowing of the natural area edges, although efficient and cost effective, is a
practice that often provides opportunity for establishment of invasive species.
Management of the natural areas has also been compromised by the absence of an
attribute based inventory, non-ecosystem-sensitive management objectives, and nonadaptive planning. For example, although the Parks Division has many of their
individual assets digitally stored in a shared database, there is currently no database for
any of the many natural area resource attributes. This lack of natural area inventory
contributes to non-ecosystem sensitive management practices and hinders adaptive
planning processes due to a lack of access to information by land managers and planners.
At present, there are very few scheduled maintenance activities conducted in natural area
parks. Specific and comprehensive service level standards have yet to be articulated.
The lack of a comprehensive maintenance management program has resulted in the
gradual progression in some areas from grasslands to forest.
6
Positive Initiatives
Positive Initiatives in Natural Areas
Greenways Plan: This plan is a city-wide network of off-street pedestrian and bicycle
connections. The objective of this project is to transport people in an environmentally
friendly way. The Greenways network connects parks, natural ravines and utility rightof-ways in order to provide transportation corridors. It also provides a number of passive
recreational opportunities.
This project parallels and supports both the BC Ministry of Environment Greenways
Project and the GVRD Green Zone Strategy, which promote biodiversity through the
development of a system of green corridors that reduce habitat fragmentation by linking
natural spaces.
Official Community Plan (OCP): The OCP was adopted as By-law No. 12900 by Surrey
Council in 1996 in order to guide land use and development over a period of five to six
years. The OCP recognizes the need to protect natural areas and commits to protecting
and enhancing the natural environment by establishing parks, open spaces, protected
habitats and conservation areas.
The OCP also recognizes the importance of agriculture to the economy and encourages
the protection and enhancement of agricultural area. It supports the Agricultural Land
Reserve and encourages wildlife management and habitat protection practices that
minimize impact on agricultural lands without jeopardizing habitat and wildlife
resources.
Releaf Program: Under the supervision of the Surrey Parks’ staff, volunteer groups plant
trees and shrubs in riparian zones, detention ponds, forests and other parks throughout the
City. This program not only enhances the environment, but also encourages stewardship
by providing opportunities for public involvement.
Hi-Knoll Park Pilot Project: A joint project has been undertaken between BC Hydro and
Surrey Parks to develop a vegetation management plan that will maintain the area as
wildland habitat, with a variety of vegetation types throughout the site. This initiative is
representative of a growing trend in park management that considers, first and foremost,
the ecology of the site and values of the natural resources that require protection and
preservation.
7
Vegetation Management Strategy
Vegetation Management Strategy
The City of Surrey recognizes the vital importance of its natural areas and has been actively
acquiring many hectares of parkland in an effort to protect its most significant and sensitive
natural areas. The Vegetation Management Strategy will assist decision makers in future
acquisition initiatives and provide sound direction in the planning, developing and managing
of park natural areas. Vegetation management in natural areas must be carefully managed in
urban areas through a wide set of scheduled maintenance activities to ensure optimum
benefits to the environment, and the community.
Principles
The following principles provide direction for setting management goals and objectives,
resolving issues, developing a vegetation management program, assisting Parks Division
resource allocation discussions, and developing Parks Division annual work plans for natural
areas.
The informing principles are that vegetation in natural areas:
Constitutes a valuable global, regional, and community resource, and is critical to
wildlife habitat
Essential to sustainability and biodiversity
Contributes significantly to park experiences
Contributes significantly to the cultural and heritage values of the City
Goals and Objectives
The overall goal is to protect, preserve and enhance the resource, providing both wildlife
habitat and recreational opportunities. The following goals and objectives are derived from
the principles above, and are designed to give the necessary support and direction to develop
a comprehensive vegetation management program.
1. Adopt of a sustainable approach to managing natural area vegetation.
Vegetation management for sustainability requires managing to provide for ecological,
economic and social benefits over time. This entails implementing strategies that meet
the needs of the present without compromising the needs of the future. It means
practicing a land stewardship ethic, which integrates the growing and nurturing of
vegetation, with strategies for the conservation of soil, air and water quality, and wildlife
and fish habitat. Sustainable vegetation management considers vegetation biodiversity
on a local, regional and global level. Two of the goals in this area are:
To create a structurally diverse ecosystem with a mix of ages, species and
sizes of plants that embodies a healthy vegetation resource.
8
Vegetation Management Strategy
To acquire natural area lands in a variety of shapes and sizes—the goal
being, to reduce the effects of localized urbanization on the vegetation
resource.
2. Preserve, protect and enhance the native vegetation in natural areas.
The preservation theme denotes the need to set aside natural areas in perpetuity for the
enjoyment and benefit of all generations, and to manage these areas with the intention of
preserving the vegetation resource. This does not preclude the need sometimes to
develop natural areas for a variety of uses, but asserts the importance of managing the
vegetation as a resource intended primarily for non-consumptive and compatible uses.
Preservation also requires policy resolutions that support the preservation of
the vegetation resource despite the sometimes-powerful arguments to remove
the vegetation due to nuisances such as insects, leaf drop or “cottonwood tree
fluff.”
The protection theme denotes the need to recognize that natural area
vegetation is often subject to significant urban pressures to alter, change or
sometimes destroy the resource. The pressure can be intentional, but is often
unintentional, resulting from a lack of understanding of the requirements of
the vegetation resource.
The enhancement theme addresses the fact that urban natural areas will not
succeed naturally through their seral stages as they do in non-urban areas.
Human intervention is required to ensure the health of the resource.
3. Integrate vegetation management plans with other resource management plans
and initiatives.
Any vegetation management work plans must be integrated with other natural area
management plans and initiatives. Urban natural areas are valued not only for their
vegetation but for their considerable recreational values, usually passive but sometimes
active. The provision of recreation in natural areas is often competitive with the
development of a healthy vegetation resource. Vegetation is often destroyed by overuse
by people. A reasonable balance needs to be achieved by considering these often
contrary values concurrently in any management plans for a natural area.
4. Active intervention and management
Natural areas located outside urban areas tend to develop naturally and healthily without
much human intervention, but in urban natural areas human intervention and
management are required. For instance, encouraging successional development of
natural areas in urban environments may be necessary due to lack of seed source or
natural distribution of seeds. Active intervention is also necessary because humans
sometimes cause the introduction and establishment of unwanted alien invasive plant
species into natural areas. Planting programs are one of the many necessary intervention
activities required to ensure healthy natural areas.
A comprehensive management program should be developed for natural areas and should
set priorities for all necessary operations and maintenance of natural areas.
9
Recommendations
Recommendations
The following recommendations will serve as a guide for the Parks Division to manage
natural area vegetation for the next five years. The initiatives are listed in order of
implementation priority—Immediate, Mid-term, and Long-term recommendations. The
prioritization of these initiatives is based on the current level of funding, the best return for
funding invested, the City’s risk and liability exposure, and the degree of critical need.
Immediate Recommendations 1–3 years
The immediate recommendations fall under four main categories—Inventory Data Base,
Annual Maintenance Management Program, Protection and Integration. Each category
contains more specific information on these prioritized initiatives.
Inventory Data Base
Currently, the Parks Division does not have an inventory database of natural areas, and
although some scheduled maintenance does occur, such as mowing of natural area grassland,
there has been little, or no work tracking history, monitoring resource condition, prioritizing
site maintenance activities, and developing site-specific management plans.
Implement a data collection project as the first priority. The minimum this initial data
collection should include would be, assessing natural areas for their location, size,
shape, general vegetation cover type, drainage patterns, and general site health, and
should be collected in a tabular and spatial format.
Annually update and audit the accuracy of the natural area database to enable
comprehensive management of the vegetation.
Use the spatial and tabular database to ensure service level standards are consistent
across the City.
Develop an in-house classification system for natural areas. At the time of writing this
Strategy, the Parks Division is conducting an inventory of forest natural areas based
primarily on broad vegetation classes.
Annual Maintenance Management Program
The following activities should be included in annual work plans that are developed for
managing natural areas. These activities encourage a sustainable, healthy vegetation
resource, provide for biodiversity and ecosystem integrity, plan for appropriate age class
distribution throughout natural areas and ensure a safe and meaningful experience for park
patrons.
10
Recommendations
Update Tabular and Spatial Inventory Data Base
It is necessary to continually review the tabular and spatial database to ensure its integrity and
accuracy. Inventories should be a part of annual work plans, with the goal of visiting all
natural areas in Surrey’s parkland inventory within a five-year period.
The Parks Division should attempt to review and assess each natural area within five
years to update the inventory database.
Additionally, the collection of critical site-specific resource data needs to be added as
the general inventory is completed.
Because the Parks Division is not regularly notified of additional natural area lands
under their management, the Division should also systematically review each map
grid area within the City on a five-year rotation.
Monitor Vegetation Condition
Over time, natural areas are susceptible to gradual changes that have drastic effects to their
overall health.
Monitoring to assess the condition and any changes in the vegetation resource should
occur in each natural area on a five-year rotation.
Develop a condition attribute rating scale that could include measuring for growth and
mortality rates, and developing average site index curves for modeling purposes.
Regenerate and Restore Vegetation
Although natural areas have a great capacity to regenerate, this capacity is severely
compromised in urban areas. Native plant seed-dispersion is often limited by lack of seed
source or seed carriers (wildlife). As well, invasive non-native plants often establish
themselves before native plants do.
In the past, little or no funding resources have been applied to natural areas where restoration
of the native vegetation is required. A backlog of renovation projects for natural areas and
degraded parks requires a considerable infusion of renovation funding.
Restoration activities should be based on priority needs, recognizing that
environmentally significant areas, such as riparian areas, must be attended to first.
Restoration activities include investing considerable resources in the planting of
ecosystem appropriate native plants and trees.
The re-introduction of extirpated plant species, and the planting and care of threatened
or endangered plant species should be a high priority.
Significant efforts in ongoing vegetation maintenance activities, such as watering and
clearance of brush to establish recently planted areas, are necessary to ensure healthy
growth.
11
Recommendations
The Parks Division could also consider adopting an operating procedure that seeks to
replant a tree in established natural areas, when appropriate, for every hazard tree that
is removed.
Conduct Vegetation Hazard Management Activities
This activity is primarily related to the inspection and assessment of trees due to whole, or
part tree failure. It includes responding to requests for service to assess and abate hazard
trees, and to conduct scheduled tree hazard inspections. (Please refer to the Tree Hazard
Management Strategy for specific details.)
Control and Manage Invasive Species
Certain species of non-native plants can be beneficial when they are maintained at endemic
levels. They offer inherent socioeconomic and ecological benefits, such as provision of food
and shelter for wildlife, soil stabilization in disturbed areas and botanical products for human
consumption. If left unchecked, however, they can become a destructive force when their
populations become epidemic, which many do at an alarming rate. These plant species
consist of:
Non-native or exotic plant species—those that were not present in natural areas prior to
the arrival of European settlers.
Invasive plant species—those that have the capability to invade and overtake native plant
communities or natural area landscapes.
In Surrey, the most noticeable effects of invasive, non-native vegetation are the suppression
of native plant species and their associated organisms, and the resulting reductions in local
species abundance and diversity. Reduced aesthetic values are also a concern in some areas.
In some cases the natural area landscape may be predominated by non-native species and
severely reduced in wildlife habitats.
To limit the negative effects of the uncontrolled spread of invasive, non-native plant species,
it is recommended that prevention and suppression be an integral aspect of managing
vegetation resources. The following measures should be adopted to meet this goal.
Prevention: public and in-house education, early detection and containment and
reduction, or restriction of potentially available sites. Prevention methods include the
following:
A complete list of invasive, non-native plants in Surrey should be compiled,
including full colour photographs and descriptions for identification and
recommended control methods (see Appendix C: Invasive Species List).
Any discoveries of these listed non-native plant species should be surveyed
and reported.
Staff should be informed that dumping of non-native plant materials must be
restricted to pre-designated dump sites where maximum containment can be
achieved.
Appropriate literature pertaining to this topic should be distributed to
residents near problem areas.
12
Recommendations
Suppression: physical removal or destruction of offending plants, and re-introduction
of competitive native species. When determining if a control program is necessary the
following questions must be addressed.
Does the invasive plant provide wildlife habitat?
What negative impacts will be associated with plant removal?
Do the negative aspects outweigh the advantages?
Control programs can include:
Physical removal
Chemical herbicides
Biological controls
Prescribed burning
Undertake Vegetation Control Activities
Scheduled pruning and sensitive mowing of natural area vegetation is necessary,
especially where natural vegetation encroaches onto roads and sidewalks.
It may also be necessary to periodically mow or burn grasslands to sustain the
ecosystem.
Control or Eradicate Pests
Pest populations can reach levels in natural areas where it is necessary to invoke measures to
control or eradicate the pest to ensure the viability of the vegetation resource. Vegetation
condition monitoring activities, such as those recommended above would provide
information on current conditions and therefore help staff decide whether pest management is
necessary (also see Fauna Management Strategy).
At this time, the Parks Division does not have an integrated pest management plan. An
overall vegetation management program should adopt a systematic approach to pests that
uses a variety of techniques to reduce pest damage to tolerable levels.
When pest population could result in significant damage to the vegetation resource, the Parks
Division should utilize the following general pest management techniques.
1. Natural predators and parasites
2. Genetically resistant hosts
3. Environmental modifications
4. Pesticides (when necessary and appropriate)
Soil management
A healthy vegetation resource, contributes directly to the health of the natural area soil.
Although soil management in natural areas can take on a variety of dimensions, it is
recommended that initial activities be conducted in the areas of hydrology, coarse woody
debris enhancement and soil compaction management.
13
Recommendations
Hydrology management includes assessing sites for their drainage requirements and
undertaking measures to modify the hydrology if necessary. This could include
directing more water to the site, or undertaking works to drain water from the site.
Coarse woody debris in many of Surrey’s natural areas has been removed resulting in
structurally and nutritionally deficient soils (see the Coarse Woody Debris
Management Strategy for specific recommendations).
Soil compaction management recognizes the need for soil regimes that provide
unimpeded root growth by avoiding soil compaction and taking steps to alleviate soil
compaction when appropriate. Avoidance would include undertaking trail closures,
and alleviation would include adding organics to the soil.
Protection
Actively undertake other protection measures, and they are as follows.
Develop and implement standards, specifications and regulations for land developers
that will protect natural area vegetation during development and construction
activities.
Monitor development sites adjacent to natural areas to ensure development activities
do not damage the vegetation.
Apply and enforce by-laws, policies and regulations when appropriate.
Implement a “zero tolerance” for the encroachment of private property onto natural
areas and immediately direct the owner to move the encroachment.
Routinely install fencing and other devices, and close trails to re-route traffic within,
and adjacent to, natural areas.
Use adaptive park planning processes that identify the long-term consequences of
siting pathways and recreational amenities near natural area vegetation. For example,
The siting of playgrounds adjacent to native urban forests requires the
removal of understory plants to comply with the Parks, Recreation and
Culture Security for Parks Patrons Policy.
The siting of recreation amenities beneath cottonwood trees creates an
unmanageable hazard due to their sudden, summer branch drop.
Integration
Currently, only park native forests are managed by the Parks Division’s Urban Forestry and
Environmental Services Section. But the management requirements for all natural area
vegetation communities, such as forests, grasslands, shrublands, is very similar, and the
ecosystems are strongly interrelated, and interdependent.
Following the development of an inventory database of natural areas, the Parks
Division should consolidate the management of all natural areas within the Urban
14
Recommendations
Forestry and Environmental Services Section of the Parks Division. This
consolidation would ensure more effective and efficient management of all natural
area ecosystems through application of consistent management regimes by staff
knowledgeable in natural resource management. As well, consolidation will enhance
the delivery of the wide array of natural area environmental education initiatives that
are possible yet unexplored.
The Parks Division should then consider the renaming the Urban Forestry and
Environmental Services Section to perhaps the Urban Forestry and Natural Area
Management Section as the current descriptor, ‘Urban Forestry’, would not
adequately encompass and adequately describe the broad range of land types under
their management.
Mid-term Recommendations 2–4 years
The mid-term recommendations for a comprehensive vegetation management strategy fall
under four main categories—Resources, Species Protection, Assessment and Education and
Awareness. Each category contains more specific information on these prioritized initiatives.
Resources
The development and pursuit of a wide variety of resources for implementing the vegetation
plan is necessary to ensure its success. To that end, these are the recommendations to increase
resources both human and monetary.
Volunteer Participation
At present, despite a considerable volunteer component in the parks service delivery, the
amount of volunteer activity associated with the comparatively high amount of natural area
parkland is relatively small.
Increase volunteer participation in some vegetation management activities. High
public concern for the state of the natural environment means there is a “captive
market” for enlisting volunteers. The range of activities and required personnel skills
is such that a volunteer initiative would likely attract a large number of candidates
(e.g. for physical work such as manual invasive species removal, or for site
monitoring to reduce illegal dumping of refuse, etc.).
Partnerships
There are a variety of agencies and non-government organizations involved in stewardship of
the environment and the City would benefit from the development of strong relationships
with these essential groups.
Explore potential partnerships. This could include other City departments such as
Engineering, senior levels of government including the Greater Vancouver Regional
District, and the various provincial ministries involved in the stewardship of the
natural environment.
15
Recommendations
Develop relationships with the host of local community organizations, such as the
White Rock Surrey Naturalists, and non-governmental organizations such as the
Evergreen Foundation. These groups and others like them are committed to natural
environment stewardship
Apply to the many private and public agencies, trusts and stewardship groups for
grant funding to support natural area initiatives.
Costs
Develop unit costs, based on accepted service level standards, for vegetation
management activities.
Conduct satisfaction surveys, monitor natural area health over time. By doing this, the
Parks Division would develop reliable data to assist decision makers in determining
annual base funding necessary for the maintenance, operation and development of
natural areas.
Species Protection
With the abundance of natural areas within its park system, Surrey has a unique opportunity
to make a difference and establish a regional model for species protection (also see Fauna
Management Strategy).
Develop species list specific to Surrey. This would be a list of plants and wildlife that
are native to Surrey, but that have been extirpated (eliminated from the region),
threatened or endangered and whose habitats are within the City boundaries.
This list can then be a resource when developing natural area parks, or natural areas
within parks, with the goal of re-introducing species or increasing populations of
threatened or endangered species.
Education and Awareness
At times, Surrey Parks has been criticized for inadequate maintenance of natural areas.
However, this criticism is often based on the pervasive desire for cultivated landscapes within
urban settings, and a general lack of awareness of the intricacies of natural ecosystems. The
uncultivated and “messy” appearance of native vegetation is sometimes mistakenly depicted
as “derelict.” A public education and awareness program could facilitate an understanding of
the importance of the vegetation resource in urban areas.
Develop an education and awareness campaign directed at changing public
perceptions and attitudes, and increasing appreciation for natural areas. As part of the
management program delivery, a campaign could utilize a host of information sources
including brochures, local newspaper submissions and inserts.
16
Recommendations
Degraded Land Assessment
In Surrey, parkland can be described as “active use” areas for human-centred activities,
natural areas with nature-centred values, and degraded lands with few nature or humancentred values. Degraded lands have the potential to be converted or developed as natural
areas or as active use parkland. Many of the degraded lands if developed as natural areas
could provide connections between existing natural areas, or for wildlife habitat
interconnectivity.
A number of “former” natural areas have undergone significant changes which resulted in the
loss of the native vegetation: sometimes as a result of development activity the area has been
scarred and de-vegetated, virtually “moonscaped”; other times as a result of inadequate
management that has allowed area conversion to primarily invasive species. Although some
reforestation and tree planting occurs, the sites are not re-vegetated on a priority basis within
the context of a comprehensive plan.
The development and implementation of any renovation plans is listed as “mid-range” in
order to allow time for a comprehensive assessment of degraded park sites, their condition,
and the subsequent cost analysis for re-vegetation and renovation. Therefore, when funding
allows it is recommended that the Parks Division:
Undertake the assessment of degraded lands for development, and give consideration
to the creation of natural areas on these sites.
Establish a renovation program to restore these degraded park sites to either their
natural, or cultured state.
Re-vegetate to ensure appropriate distribution of species and age class of species. This
is an important component in the provision of wildlife habitat, integrity of
hydrological systems, environmental enhancement, and soil erosion control.
Long-term Recommendations 3-5 years, or as resources allow
The long-term recommendations for a comprehensive vegetation management strategy fall
under three main categories—Site-Specific Plans and Programs, Provision Standards and
Assessment. Each category contains more specific information on these prioritized
initiatives.
Site-Specific Plans and Programs
Many natural areas, and some natural areas within parks, require site-specific vegetation
management plans and programs. Sustainability of the vegetation resource at specific sites
may be threatened for a variety of reasons, have high ecological sensitivity, or competing
interests. The sheer size of the site itself may dictate the need for a site-specific plan.
In order to properly maintain the vegetation resource and preserve natural areas ecosystems
the following is recommended:
Develop site-specific management plans to provide direction for the Parks Division in
the management of the vegetation resource. Such plans will also allow for better
17
Recommendations
communication with the public, which could help to facilitate better conflict resolution
when the values of access and recreation for the public, collide with the values of
habitat provision for the vegetation and fauna.
Provision Standards
The Parks, Recreation and Culture Master Plan suggests a provision standard of .8 hectares
(2 acres) of Nature Preservation and Linkage Parks per 1000 residents. This classification is
often construed to be a provision level for natural areas, whereas many of the lands included
in the present inventory of “Nature Preservation Areas and Linkages” are not natural areas
according to the definition within the Natural Areas Management Plan. More often they are
utility corridors, or linear parks of non-native grasses with limited natural area attributes.
A review of the different land classification systems used for park planning is
recommended, with the goal of achieving a common approach to land classification
between planners and natural area land managers. This, in turn, would enable a more
comprehensive understanding of what provision standards currently exist, and assist
with the determination of a more specific standard.
It is necessary to conduct detailed analysis of current Nature Preservation and Linkage
classified parks to determine what percentage are natural areas as defined in this
Strategy. This analysis would help guide park acquisition strategies that are founded
on the need to provide for natural areas.
Detailed provision standards should be developed that consider natural area spatial
distributions of the various site classifications (e.g. grasslands, wetlands, old-field,
shrublands, hedgerows, etc.). This would assist in long-term planning and acquisition
strategies.
Natural area acquisition strategies should consider senior level government reports
such as the Ministry of Environment, Lands and Parks, Sensitive Ecosystem Inventory
as a valuable source of information.
Natural Area Fragmentation
The health of natural area vegetation is optimal when natural ecosystems function better,
and they generally function better when they are large in area and are not dissected by an
overburden of development, such as trails and roads. Wildlife moves more easily
through natural areas when corridors are established that bridge urban infrastructure such
as roads.
Fragmentation of natural ecosystems has occurred along a variety of scales in Surrey. On
a regional scale, the dissecting of ecosystems is often an outcome of the establishment of
local government geopolitical boundaries. Although the Greater Vancouver Regional
District works diligently at preserving large tracts of natural areas that sometimes span
more than one geopolitical area, and local governments sometimes do collaborate on
creating inter-connected recreational and natural systems, inevitably natural ecosystems
are fragmented.
18
Recommendations
On a local scale, that being within the boundaries of the City of Surrey, fragmentation of
natural area ecosystems further occurs simply through the act of building the City for
human occupancy. Often the fragmentation could be avoided through increased
consideration to the requirements of large-scale natural ecosystems.
At the ‘park’ scale there is sometimes a penchant to create natural area islands within the
park, separated by linear passive lawn areas, ostensibly for aesthetics reasons. This
separation further fragments natural ecosystems, diminishing their values and function as
natural systems.
It is recommended that:
Surrey park planning processes, within the regional and local context, give
consideration to the need to preserve large tracts of natural ecosystems and
interconnecting natural ecosystems whenever possible for the sake of the ecosystems
themselves.
Park site design and development should consider the need to interconnect adjacent
natural ecosystems and avoid disconnecting natural areas within the park.
Parks undertake an assessment of existing parks to identify where natural areas within
the parks can be reconnected through additional planting or alternative maintenance
practices (i.e., no mowing) to reduce fragmentation..
19
Appendix A
Appendix A:
Rare and Endangered Natural Plant Communities
The following rare natural plant communities list was generated from the B.C. Conservation
Data Centre’s tracking list for the Chilliwack Forest District. This tracking list is currently
incomplete because there is not enough data yet to rank all of the rare natural plant
communities in B.C. Tracking lists information is subject to change because they are being
updated continually. The list below represents only those communities on the tracking list (as
of August 2000) that are believed to currently exist in Surrey or that may have existed here in
the past. The status of each plant community on the provincial list is given as either red or
blue listed. Red listed plant communities are extirpated, endangered or threatened. Blue
listed plant communities are vulnerable or at risk. The structural stage is listed (see table
below) because similar plant communities at younger structural stages are considered to be
different plant communities, though they may eventually develop into one of the rare natural
plant communities.
Code
1
1a
1b
2
2a
2b
2c
2d
Structural Stage
Sparse/bryoid
Sparse
Bryoid
Herb
Forb-dominated
Graminoid-dominated
Aquatic
Dwarf shrub-dominated
Structural
Stage
Code
3
3a
3b
4
5
6
7
Shrub/Herb
Low shrub
Tall shrub
Pole/Sapling
Young Forest
Mature Forest
Old Forest
At some point in the future many of the larger natural areas in the parks system will be
classified at the biogeoclimatic ecosystem level. Once this is accomplished, the information
can be checked against this list to determine the relative priority of these ecosystem types for
protection, enhancement and new parkland acquisitions.
Scientific Name
Abies grandis /
Mahonia nervosa
Abies grandis /
Tiarella trifoliata
Alnus rubra / Carex
English Name
Grand fir / dull Oregongrape
Grand fir / three-leaved
foamflower
Red alder / slough sedge
Biogeoclimatic
Ecosystem
Classification
Unit
Provincial
List
Structural
Stage
CDFmm / 04
Red
7
CDFmm / 06
Red
7
CDFmm / 14
Red
6
20
Appendix A
Scientific Name
obnupta [Populus
balsamifera ssp.
trichocarpa]
Alnus rubra /
Lysichiton
americanum
Deschampsia
cespitosa – Sidalcea
hendersonii
Festuca idahoensis –
Koelaria macrantha
Festuca idahoensis –
Koelaria macrantha
Myosurus minimus –
Montia spp. –
Limnanthes macounii
Picea sitchensis /
Rubus spectabilis Dry
Picea sitchensis /
Rubus spectabilis
Very Dry Maritime
Populus balsamifera
ssp. trichocarpa /
Cornus stolonifera
Populus balsamifera
ssp. trichocarpa /
Cornus stolonifera
Pseudotsuga
menziesii – Pinus
contorta / Holodiscus
discolor / Cladina
Pseudotsuga
menziesii – Pinus
contorta /
Rhacomitrium
canescens
Pseudotsuga
menziesii – Tsuga
heterophylla /
Gaultheria shallon
Dry Maritime
Pseudotsuga
menziesii – Tsuga
heterophylla /
Gaultheria shallon
Dry Maritime
Pseudotsuga
menziesii / Gaultheria
shallon
English Name
Biogeoclimatic
Ecosystem
Classification
Unit
Provincial
List
Structural
Stage
[black cottonwood]
Red alder / skunk
cabbage
CDFmm/11
Blue
7
Tufted hairgrass –
Henderson’s checkermallow
CWHxm1/00
Red
2
Idaho fescue - junegrass
CDFmm/00
CWHxm1/00
Red
2
Idaho fescue - junegrass
CWHxm1/00
Red
2
CDFmm/00
Red
2
CWHdm/08
Red
7
CWHxm1/08
Red
7
Black cottonwood / redosier dogwood
CWHdm/09
Blue
6
Black cottonwood / redosier dogwood
CWHxm1/09
Blue
6
Douglas-fir – lodgepole
pine/oceanspray/cladina
CWHdm/02
Red
7
Douglas-fir – lodgepole
pine / rhacomitrium
CWHxm1/02
Red
7
Douglas-fir – western
hemlock / salal Dry
Maritime
CWHxm1/03
Blue
7
Douglas-fir – western
hemlock / salal Dry
Maritime
CWHdm/03
Blue
7
Douglas-fir / salal
CDFmm/01
Red
7
Sitka spruce /
salmonberry Dry
Sitka spruce /
salmonberry Very Dry
Maritime
21
Appendix A
Scientific Name
Pseudotsuga
menziesii /
Polystichum munitum
Pseudotsuga
menziesii /
Polystichum munitum
Sidalcea hendersonii
– Tidal Marsh
Thuja plicata –
Pseudotsuga
menziesii /
Kindbergia oregana
Thuja plicata / Achlys
triphylla
Thuja plicata / Carex
obnupta
Thuja plicata / Carex
obnupta
Thuja plicata /
Lonicera involucrata
Thuja plicata /
Lonicera involucrata
Thuja plicata /
Oemleria
cerasiformis
Thuja plicata /
Polystichum munitum
Dry Maritime
Thuja plicata /
polystichum munitum
Very Dry Maritime
Thuja plicata / Rubus
spectabilis
Thuja plicata / Rubus
spectabilis
Thuja plicata /
Symphoricarpos
albus
Thuja plicata /
Tiarella trifoliata Dry
Maritime
Thuja plicata /
Tiarella trifoliata
Very Dry Maritime
Tsuga heterophylla Pseudotsuga
menziesii /
English Name
Biogeoclimatic
Ecosystem
Classification
Unit
Provincial
List
Structural
Stage
Douglas-fir / sword fern
CWHxm1/04
Red
7
Douglas-fir / sword fern
CWHdm/04
Red
7
Henderson’s checkermallow – Tidal Marsh
CWHxm1/00
Red
Western redcedar –
Douglas-fir / Oregon
beaked moss
CDFmm/05
Red
7
CDFmm/12
Red
7
CWHxm1/15
Blue
6
CWHdm/15
Blue
6
CWHxm1/14
Red
6
CWHdm/14
Red
6
Western redcedar /
Indian-plum
CDFmm/13
Red
7
Western redcedar /
swordfern Dry Maritime
CWHdm/05
Blue
7
Blue
7
Red
6
Red
6
CDFmm/07
Red
7
CWHdm/07
Blue
7
Red
7
Red
7
Western redcedar /
vanilla leaf
Western redcedar /
slough sedge
Western redcedar /
slough sedge
Western redcedar /
black twinberry
Western redcedar /
black twinberry
Western redcedar /
swordfern Very Dry
Maritime
Western redcedar /
salmonberry
Western redcedar /
salmonberry
Western redcedar /
snowberry
Western redcedar /
three-leaved
foamflower Dry
Maritime
Western redcedar /
three-leaved
foamflower Very Dry
Maritime
Western hemlock douglas-fir / oregon
beaked moss
CWHxm1/05
CWHxm1/13
CWHdm/13
CWHxm1/07
CWHxm1/01
22
Appendix A
Scientific Name
Kindbergia oregana
Tsuga heterophylla Thuja plicata /
Blechnum spicant
Tsuga heterophylla Thuja plicata /
Blechnum spicant
Tsuga heterophylla /
Plagiothecium
undulatum
English Name
Western hemlock western redcedar / deer
fern
Western hemlock western redcedar / deer
fern
Western hemlock / flat
moss
Biogeoclimatic
Ecosystem
Classification
Unit
CWHdm/06
CWHxm1/06
CWHdm/01
Provincial
List
Structural
Stage
Red
7
Red
7
Red
7
23
Appendix B
Appendix B:
Rare and Endangered Plant Species
The following tracking list of rare and endangered plants was provided by the British
Columbia Conservation Data Centre (CDC) and represents the most up-to-date information
(April 2001) for the Chilliwack Forest District. Surrey constitutes a small fraction of the
Chilliwack Forest District, so it is possible that some of the species listed here have never
occurred in Surrey. Species with provincial ‘Red’ list status are extirpated, endangered or
threatened. Species with provincial ‘Blue’ listed status are considered to be vulnerable or at
risk.
This list could be used in the context of an ecosystem-based approach to the management of
natural areas. If an area being rehabilitated (planted) is determined to be an appropriate
ecosystem for one or more of these species, they could be planted to help maintain or enhance
the population of these species in Surrey Parks.
Scientific Name
Alopecurus carolinianus
Anemone drummondii var. drummondii
Anemone virginiana var. cylindroidea
Apocynum x floribundum
Arabis lignifera
Asplenium adulterinum
Berula erecta
Bidens amplissima
Cacaliopsis nardosmia
Callitriche heterophylla ssp.
heterophylla
Caltha palustris var. palustris
Cardamine parviflora var. arenicola
Carex amplifolia
Carex comosa
Carex feta
Carex interrupta
Carex lenticularis var. lenticularis
Carex scoparia
Carex vulpinoidea
Castilleja rupicola
Centaurium muehlenbergii
Cephalanthera austiniae
Cheilanthes gracillima
Cimicifuga elata
Claytonia rubra ssp. depressa
Claytonia washingtoniana
Coleanthus subtilis
Provincial
Listing
English Name
Carolina meadow foxtail
Drummond's anemone
riverbank anemone
western dogbane
woody-branched rockcress
corrupt spleenwort
cut-leaved water-parsnip
Vancouver Island beggarticks
silvercrown
Red
Blue
Red
Blue
Blue
Blue
Red
Blue
Red
two-edged water-starwort
Blue
yellow marsh-marigold
small-flowered bitter-cress
bigleaf sedge
bearded sedge
green-sheathed sedge
green-fruited sedge
lakeshore sedge
pointed broom sedge
fox sedge
cliff paintbrush
Muhlenberg's centaury
Austin's phantom orchid
lace fern
tall bugbane
red miner's lettuce
Washington miner's lettuce
northern coleanthus
Blue
Red
Blue
Blue
Blue
Red
Red
Blue
Blue
Blue
Red
Red
Blue
Red
Red
Red
Red
24
Appendix B
Scientific Name
Crepis atribarba ssp. atribarba
Crepis occidentalis ssp. pumila
Cryptogramma cascadensis
Cuscuta pentagona
Delphinium glareosum
Dicentra uniflora
Douglasia laevigata var. ciliolata
Draba lonchocarpa var. thompsonii
Elatine rubella
Eleocharis parvula
Eleocharis rostellata
Elmera racemosa var. racemosa
Elodea nuttallii
Epilobium ciliatum ssp. watsonii
Epilobium glaberrimum ssp.
fastigiatum
Epilobium halleanum
Epilobium leptocarpum
Epilobium mirabile
Eriophorum vaginatum ssp. vaginatum
Galium mexicanum ssp. asperulum
Gayophytum humile
Glyceria leptostachya
Glyceria occidentalis
Helenium autumnale var. grandiflorum
Helianthus nuttallii var. nuttallii
Hydrophyllum tenuipes
Hypericum majus
Hypericum scouleri ssp. nortoniae
Idahoa scapigera
Juncus oxymeris
Juncus regelii
Leersia oryzoides
Lewisia tweedyi
Lilaea scilloides
Lindernia dubia var. anagallidea
Lomatium brandegeei
Lupinus arbustus ssp.
pseudoparviflorus
Lupinus argenteus var. laxiflorus
Lupinus rivularis
Melica bulbosa
Melica smithii
Mimulus breweri
Mitella caulescens
Muhlenbergia filiformis
Myriophyllum pinnatum
Myriophyllum ussuriense
Navarretia intertexta
Nothochelone nemorosa
Platanthera dilatata var. albiflora
Provincial
Listing
English Name
slender hawksbeard
western hawksbeard
Cascade parsley fern
five-angled dodder
rockslide larkspur
steer's head
smooth douglasia
lance-fruited draba
three-flowered waterwort
small spike-rush
beaked spike-rush
elmera
Nuttall's waterweed
purple-leaved willowherb
Red
Red
Blue
Blue
Red
Blue
Blue
Blue
Blue
Blue
Blue
Blue
Blue
Blue
smooth willowherb
Blue
Hall's willowherb
small-flowered willowherb
hairy-stemmed willowherb
sheathed cotton-grass
rough bedstraw
dwarf groundsmoke
slender-spike manna grass
western mannagrass
mountain sneezeweed
Nuttall's sunflower
Pacific waterleaf
Canadian St. John's-wort
western St. John's-wort
scalepod
pointed rush
Regel's rush
rice cutgrass
tweedy's lewisia
flowering quillwort
false-pimpernel
Brandegee's lomatium
Blue
Blue
Blue
Blue
Blue
Blue
Blue
Blue
Blue
Red
Blue
Blue
Blue
Red
Blue
Blue
Blue
Red
Blue
Red
Blue
Montana lupine
Red
silvery lupine
stream-bank lupine
oniongrass
Smith's melic
Brewer's monkey-flower
leafy mitrewort
pull-up muhly
pinnate water-foil
Ussurian water-milfoil
needle-leaved navarretia
woodland penstemon
fragrant white rein orchid
Red
Red
Red
Blue
Blue
Blue
Red
Red
Blue
Red
Blue
Blue
25
Appendix B
Scientific Name
Polemonium elegans
Polygonum douglasii ssp. johnstonii
Polygonum hydropiperoides
Polygonum polygaloides ssp. kelloggii
Polygonum punctatum
Polystichum kruckebergii
Potamogeton nodosus
Potamogeton oakesianus
Potamogeton strictifolius
Pyrola elliptica
Rubus lasiococcus
Rubus nivalis
Rupertia physodes
Sagina decumbens ssp. occidentalis
Salix sessilifolia
Sanguisorba menziesii
Scrophularia lanceolata
Smelowskia ovalis
Sparganium fluctuans
Spergularia macrotheca var.
macrotheca
Stellaria obtusa
Stellaria umbellata
Toxicodendron diversilobum
Verbena hastata var. scabra
Veronica catenata
Viola howellii
Viola purpurea var. venosa
Wolffia borealis
Provincial
Listing
English Name
elegant Jacob's-ladder
sachaline knotweed
water-pepper
Kellogg's knotweed
dotted smartweed
Kruckeberg's sword fern
long-leaved pondweed
Oake's pondweed
stiff-leaved pondweed
white wintergreen
dwarf bramble
snow dewberry
California-tea
Western pearlwort
sessile-leaved sandbar willow
Menzies' burnet
lance-leaved figwort
short-fruited smelowski
water bur-reed
Blue
Red
Blue
Blue
Blue
Blue
Red
Blue
Blue
Blue
Blue
Red
Blue
Blue
Blue
Blue
Blue
Blue
Blue
beach sand spurry
Blue
blunt-sepaled starwort
umbellate starwort
poison oak
blue vervain
pink water speedwell
Howell's violet
purple-marked yellow violet
northern water-meal
Blue
Blue
Blue
Red
Red
Blue
Blue
Red
26
Appendix C
Appendix C:
Invasive Species List
Plant invasions have become increasingly recognized as a major threat to both natural and
human-exploited ecosystems worldwide (R. Hobbs et al. 1994). The threat is greatest when
the population of a given plant species reaches epidemic levels and begins to outcompete
native vegetation or monopolize cleared landscapes. At this point a number of undesirable
effects begin to arise. Invasive, non-native plants can modify ecosystems through:
Suppression or local eradication of native plant species and their associated
organisms
Reduction in total native plant species diversity and numbers
Modification of soil nutrients and pH
Alteration of drainage patterns
Declines in survival rates of native animals
Additionally, these species can cause:
Damage to property
Decreased aesthetic values
Increased fuel loading that promotes wild-fires
Invasive plant species are introduced to natural areas in a variety of ways. For the most part,
exotic non-native species are introduced in an area for horticultural or agricultural purposes.
The mere presence of these plants in our landscape is not the problem; it is the uncontrolled
spread of these plants into undesignated sites that is of concern.
The prime methods of dispersal of these species in Surrey appear to be:
a) Dumping of residential yard and garden waste
b) Incidental seed transport by humans and animals
c) Root or runner creep onto adjacent sites
d) Random seed dispersal by wind and water
Once these plants have been introduced to a site, their rate of spread is determined by:
a) Species specific reproduction strategy
b) Site and climatic conditions (e.g. disturbed sites)
c) Relative amount of vegetative competition
d) Direct human intervention, or lack thereof
27
Appendix C
Problem Species in Natural Area Parks in Surrey
Botanical
Name
Common
Name
Degree of
Invasiveness
Habitat Type
Ecolo
gy
Habitat Values
when endemic
Rubus discolor
Himalayan
blackberry
Extreme
Forest edges,
roadside, fields
Shade
intolerant
Food, shelter
Hedera helix
English ivy
Extreme
Forest
understory, tree
Shade
tolerant
Negative
Lamium
maculatum
Dead nettle
Extreme
Forest
understory
Shade
tolerant
Negative
Lythrum
salicaria
Purple
loosestrife
High
Wetlands,
ditches
Shade
intolerant
Negative
Cytisus
scoparius
Scotch broom
High
Roadsides,
meadows, open
forest
Shade
intolerant
Negative
Convolvulus
arvensis
Morning Glory
High
Edges,
roadsides, fields,
disturbed sites
Shade
intolerant
Negative
Ilex aquifolium
English holly
High
Forest
understory, moist
Shade
tolerant
Food (minor)
Impatiens
balsamina
Himalayan
balsam,
Snapweed
Medium
Open areas,
disturbed
Polygonum
japonicum
Japanese
Knotweed
High
Open areas
Shade
intolerant,
moist
it
Shade
intolerant
N/A
N/A
Table will be supplemented upon further consultation with specialists.
Invasive Species Found in Surrey
The following is a list of the major invasive plant species found in the city of Surrey.
Background information on the biology, ecological impact and removal/control methods is
included.
Shrub Species: Himalayan Blackberry, Scotch Broom
Herbaceous Species: Purple Loosestrife, Morning Glory (Bindweed), Japanese Knotweed,
English Ivy, Yellow Archangel (Dead nettle), English Holly, Himalayan balsam (Snapweed),
and Periwinkle.
Individual Account of Shrub and Herbaceous Species
Shrub Species
Name: Rubus discolor
Family: Rose
28
Appendix C
Common Name(s): Himalayan Blackberry
Photo:
Description:
Himalayan Blackberry is perennial that grows in mounds up to 3 meters tall and can trail as far as 10
meters long the ground. Their long trailings can become rooted at the end. These can send out new
runners allows the plant to spread further. Delicate white to pinkish flowers and blackberries appear
in the summer months (berries are edible). The stems are four-angled with many curved prickles. The
leaves are oval shaped, smooth green-above, and covered with white hairs below (Pojar and
MacKinnon, 1994).
Habitat Type:
This species forms dense thickets, especially in wet areas, along streamsides and disturbed areas.
Life History:
There are three kinds of blackberries found in British Columbia: Trailing blackberry (Rubus urinus),
Evergreen blackberry (Rubus laciniatis) and Himalayan blackberry. Trailing blackberry is a native
species to BC, while Evergreen and Himalayan blackberries originated in Europe and Iran,
respectively. Himalayan Blackberry is now widespread throughout Southwestern British Columbia.
Thickets of this species can produce 7000-13,000 seeds per square meter. The seeds are contained in
drupelets in the plants berries. These berries ripen and turn black during the summer and mummify
during the winter. This process provides a year round source of food for birds and mammals. As a
result, animals that feed on blackberries are responsible for dispersing this plants seed over a wide
range. Passage of the seed through the birds digestive tract may improve germination. Seedlings
depend on the availability of degraded and open habitat such as land neglected after cultivation,
degraded pasture, and eroded soils along stream banks
(http://tncweeds.ucdavis.edu/esadocs/documents/rubudis.html).
Ecological Impacts:
These thickets may hinder medium to large sized mammals in gaining access to water. Native plant
species are often displaced as this species takes over areas.
Invasive Potential: Medium
Habitat Value: Some
Source of summer/winter food, nesting habitat for birds and small mammals; cover from predation,
prevents humans access to fragile sites ie.streambanks.
Methods of Removal/Control:
Physical: hand pulling, grub up, cutting
Mechanical: chopping, cutting, mowing
Thermal: prescribed burning
Biological Control
(for technique specifics refer to: blackberry file or http://tnc.weeds.edu)
Site Rehabilitation:
Re-plant with native vegetation. Examples: Salmonberry, Thimbleberry, Red Elderberry
Soil treatment for disturbance during invasive species removal
Application of geotextiles
Application of mulch layer
Recommended monitoring and maintenance:
Monitoring is needed to determine the best and most effective management practices
Observation over time (minimum very six months)
Adaptive management to determine the best course of action.
Name: Cytisus scoparius
Family Name: Fabaceae
Common Name: Scotch Broom
Photo:
29
Appendix C
Description:
Scotch Broom is a deciduous shrub. It grows up to 3 meters tall with many thin, long and flexible,
green branches. Leaves are small and alternate. Three leaves are found at the base of the branches
with only simple leaflets further out. Its flowers are bright yellow, occasionally with a purplish tinge.
On the mature plant, thousands of seed pods can be seen. These pods are brownish black, about 4 cm
long and pop open, expelling several seeds.
Habitat Type:
Scotch Broom is a European plant originating in the Mediterranean area. It thrives in a Mediterranean
climate with mild winters and dry summer such as that of Southwestern British Columbia. It
establishes in open sites, disturbed sites (along roads), but will also invade natural meadows, thickets
and open forests. Being a nitrogen-fixing plant, it can tolerate poor soil conditions. An area where it
has had a great deal of impact is the Gerry oak meadow ecosystem on southern Vancouver Island. It
has out-competed almost all of the wildflowers, threatening an already fragile and greatly reduced
plant community.
(http://infoweb.magi.com/~ehaber/bc_broom.html).
Life History:
The dark seed pods of Scotch Broom contain up to nine seeds. These pods burst open when ripe with
an audible pop. Broom is prolific: a single mature plant can produce up to 18,000 seeds annually.
Banked seeds may remain viable for up to 30 years, and germinate when provided with disturbed
conditions of open mineral soil. Germination may be enhanced by fire. It relies less heavily on water,
wind, or animal distribution than do some other invasive plants, although its tough seed coat provides
good protection from abrasion associated with water transportation. Broom is nitrogen-fixing, which
assists in its establishment on poor and disturbed sites, and, in turn, its ability to out-compete native
species. Broom is well suited to cope with water-related stress, having a deep taproot, a reduced leaf
area, and photosynthetically active stems. A thick epidermal wax coating and the ability to abscise its
leaves permit conservation of moisture. It is a primarily a early seral colonizer, which is eventually
shaded out by native species. There is, however, a concern that its vigorous and prolific growth, and
acidification of the soil, in fact prevents establishment of other species.
(http://infoweb.magic.com/~ehaber/bc_broom.html)
Ecological Impacts:
Various growth feature make this a very competitive plant. Native plant species are often displaced as
this species takes over areas. This results in a loss of biodiversity. Soil quality is degraded as a result
of acidification.
Large patches can be a fire hazard
Invasive Potential:
High
Habitat Value: Some
Nesting habitat for birds, bank stabilization/reduced erosion.
30
Appendix C
Methods of Removal/Control:
Physical: pulling, (during the fall when soil is wet, all plants less than two years old
remove all roots)
cutting (don't cut in winter, cut below first lateral root, never cut if less than two
years old)
Thermal: burning (encourages germination of seeds in the bank, then use physical controls)
Biological: 2 fungi used - still in experimental stage
-replacement planting
Chemical; round-up
*or use of two techniques: ie cut and round-up
(refer to broom file for specific techniques)
Site Rehabilitation:
Replanting with native vegetation.
soil treatment required - broom acidifies the soil
Application of geotextiles
Application of mulch layer
Recommended monitoring and maintenance:
Routine monitoring of the site following treatment to determine if further controls are needed
(minimum every 6 month).
Herbaceous Species
Name: Lythrum salicaria
Family Name: Lythraceae
Common Name(s): Purple Loosestrife, Swamp loosestrife
Photo:
Description:
A herbaceous perennial introduced from Eurasia that now commonly grows in many freshwater
wetlands in North America. It grows 1 - 2 m high with a hairy and somewhat square shaped stem. It is
mostly unbranched near base but branches out near top (Guard, 1995). A spike on the top of the plant
contains many flowers. These flowers are bright purple-pink with tissue-like appearance. Leaves are
opposite, 3 - 10 cm long (Pojar and Mackinnon, 1994).
Habitat Type:
Purple loosestrife inhabit wetlands, marshes, edges of large ponds and lakes, and river banks. It
flourishes in wetland habitats that have been disturbed or degraded by either human activities or
natural occurrences.
31
Appendix C
Life History:
This plant begins to bloom in July and continues until September or October. Its flowers can be
pollinated by several types of bees and butterflies. Each Purple loosestrife plant can produce up to 900
seed capsules, holding an average of 120 orange, minute seeds (http://webriver.com.tneppc/manual/lythru.htm). These seeds are dispersed mainly by wind and water. However, waterfowl
and wetland animals may also play a role in this process. The Red-winged Blackbird, for example, is
known to eat these seeds and, thereby, aiding in the wide dispersal of the plant. Humans can carry
seeds inadvertently on clothing and shoes.
Purple loosestrife seeds can germinate in a wide range of soils from acidic to alkaline or nutrient poor
to nutrient rich. Light requirements for germination are minimal. These factors allow the plants to
establish in a wide range of habitat conditions. Seedlings that germinate in the spring grow rapidly and
will produce a floral shoot up to 30 cm in the first year. Once established, seedlings can survive
shallow flooding of up to 30-45 cm in depth. A drop in water levels allow seeds of this species, which
are held in large number in the seed bank, to germinate. The taproot of the plant is strongly developed
and persists throughout the life of the plant becoming thick and woody. The semi-woody-aerial shoots
die off in the fall but persist for one to two years making stands very thick
(http://tncweeds.ucdavis.edu). Loosestrife can also spread through cut stems and, small pieces of
rhizomes left in the ground. This plant has no natural predators, therefore, once it invades an area it is
capable of out-competing all other species and eventually leads to a virtually monospecies stand. As
this plant takes over, the ecosystem is changed and native wetland habitat is lost.
Ecological Impacts:
Replaces native vegetation, degrades wildlife habitat, decreases wetland habitat and obstructs natural
waterways. Waterfowl can become trapped among the stems of these plants and die. Due to an
absence of natural predators to control this plant, populations can taking over and dominate large areas.
Invasive Potential:
High
Habitat Value: Low
Methods of Removal/Control:
Mechanical/Physical: hand pulling: shearing, mowing, mowing, water level manipulation, burning,
polishing/disking - not effective
Chemical: herbicides (problem - non-selective chemicals)
suggested -roundup, tricloropyramine (take caution when using near watercourses)
Biological: plants, insects (beetles, weevils) -still experimental
* for large infestations. -containment and seed production are best measures.
Site Rehabilitation:
Recommended replacement species include: Nodding smartweed; Walter's millet; Japanese; and
chufa. Vegetating plants should be used in conjunction with the various removal and control methods.
Application of geotextiles
Recommended monitoring and maintenance:
Site survey every 6 months for changes in population size
If possible maintain a steady water level in the wetland
Try to remove all rhizomes
Methods of control will vary depending on the size of infestation.
Name: Convolvulus arvensis
Family Name: Convolvulaceae
Common Name: Morning Glory, Bindweed, Field Bindweed
Photo:
32
Appendix C
Description:
Morning Glory is a perennial vine which spreads by rhizome and seeds. It trails and twines to lengths
of 20 to 200 cm forming carpets that are capable of strangling other vegetation. Underground
rhizomes may range from 5 cm to 2.6 m long. The extensive roots can measure 6.6m long and
penetrate deeply into the soil. Leaves are arrowhead in shape, 2 to 6 cm long and are alternating. Its
flowers consist of five fused pedals forming a 2 to 2.5 cm long funnel. They are white with a very pale
pink tinge (Pojar and (Mickinnon, 1996).
Habitat Type:
Field Bindweed/Morning Glory is an introduced species from Europe. However, there are native
Morning Glory species (Nightblooming) found in British Columbia. Both native and non-native plants
are commonly found in fields, croplands, thickets, roadsides, streambanks, lakeshores, disturbed area
and waste places.
Life History:
Morning Glory flowers are produced in June and plants continue to bloom as long as the growing
conditions are favorable. These flowers last for only one day. The underground root and stem system
is quite extensive. Young plants extend a taproot into the soil and then form lateral roots. These
lateral roots initially function as feeding roots for above and below ground growth but later aid in
vegetative reproduction. Eventually a long series of shoots arise from the stem. Seeds fall near the
parent plant but can be transported by water or bird. Seeds can remain viable in the stomachs of
migrating Killdeer for up to 144 hours, and pass through animals with little of no damage. Thirty days
after pollination the seed matures. Seeds may lie dormant in the soil for many years until favorable
germinating conditions are met (Lyons, TNC).
Ecological Impacts:
Morning Glory (Field Bindweed) is an aggressive vine that often twines of wraps around other
vegetation or objects. This can lead to other species being choked out or severely damaged as they
engulfed be this plant. Ultimately, this will lead to a decrease in area biodiversity.
Invasive Potential:
Medium
Habitat Value: Low
Methods of Removal/Control:
Physical: pulling, mowing, disking, cultivating (these need to be repeated regularity)
-may be hard to put/uproot this plant without disturbing other vegetation - it twines around other
plants.
Biological: competitive planting (species that grow fast in winter and early spring may have a chance)
(Refer to folder)
Site Rehabilitation:
Re-planting with native vegetation
Soil treatment - soil may be disturbed during pulling.
Application of geotextiles
Application of mulch layer
Recommended monitoring and maintenance:
Reduce seed in soil
Prevent seedling growth
Deplete food reserves in root system
Prevent spread of weed
Control methods such a cultivating will need to be applied frequently and regularly.
33
Appendix C
Name: Polygonum cuspidatum
Family Name:
Common Name: Japanese knotweed, Mexican bamboo, Chinese bamboo
Photo:
Description:
Knotweed is a herbaceous perennial which forms large clumps 1-3 meters high. It is fully dioecious
and can reproduce by seed and by large rhizomes which may reach a length of 5-6 meters. The stout
stems are hollow and bamboo-like. They extend from an erect base and are simple or little branched
with thinly membranous sheaths. Knotweed has egg-shaped, abruptly pointed leaves that are squared
off at the base (Pojar and Mackinnon, 1994). Flowers are numerous in small panicles in the upper leaf
axils and are approximately 3 mm long (Seiger, TNC).
Habitat Type:
Japanese Knotweed is native to eastern Asia. It found its way to North America, via the United
Kingdom, in the late nineteenth century. It can thrive in a variety of habitats with a wide range of soil
types. It is usually found in sunny places along river banks, wetlands, waste places, along roadways,
and in other disturbed areas.
Life History:
Japanese Knotweed flowers in August and September in North America. It is pollinated by bees and
other insects. Seeds appear two weeks after flowering and are wind dispersed. However, for the North
America version of this plant, the seeds are not a significant mode of reproduction. Populations of
fertile male plants are rare in this part of the world. As a result, the primary mode of reproduction is
through extensive rhizomes which can reach 15-20 meters in length. Knotweed is a strong grower
with the ability to regenerate from small fragments. Dispersal can occur naturally when rhizome
fragments are washed downstream by the current and deposited on banks or, as more commonly
occurs, when soil is transported by humans as fill. This plant out-competes other vegetation by
emerging early in the spring and using its extensive rhizomatous reserves to quickly attain a height of
2-3 meters. Shoots generally emerge in April and growth rates can exceed 8 cm per day. In addition,
its deep root system gives it an advantage in foraging for nutrients and water.
(Seiger, http://tncweeds.ucdavis.edu)
Ecological Impacts:
This species can out-compete native vegetation that grows in riparian areas. Loss of these native
riparian vegetation species can have an impact on the entire watercourse (decrease in area biodiversity,
changes in stream ecology ie. more sunlight on streams).
Invasive Potential:
Medium
Habitat Value: Low
Methods of Removal/Control:
Physical: hand pulling, - probably the best method, need to be done at least three times over growing
season to be effective
digging up disturbs soil and is hard to get all of rhizomes - not recommended.
shading - black polyethylene film covered with asphalt or stone - expensive
Chemical: 1) roundup works best in combo with cutting. undesirable for use in conservation areas,
near water, etc. Persist in soil and are non-selective. Paint on plant to eliminate or reduce these
problems.
2) Picloram - different. chemicals for use during different seasons
Site Rehabilitation:
34
Appendix C
Re-vegetate with early sprouting, fast growing, native species once growth of Japanese Knotweed has
been reduced (attempt to shade it out).
Application of geotextiles
Application of mulch layer
Recommended monitoring and maintenance:
Monitor for the introduction of Japanese Knotweed and manually remove the entire plant.
(every 6 months)
Repeated cutting and proper disposal of wastes.
(as long as rhizomes remain in the soil Knotweed returns once management is relaxed)
Name: Hedera helix
Common Name: English Ivy
Photo:
Family Name:
Description:
English Ivy is an evergreen woody vine that blankets the ground and climbs walls, fences, trees or
trelises. If left un-attended it can overtakes and smothers surrounding vegetation. Its leaves alternate
along the stem and are green with white to grey-ish markings. They are leather-like and have 3-5
lobes. The flowers of this plant are small and yellow (http://www.rbg.ca/cbcn/i_control.html).
Habitat Type:
English Ivy grows in sun or shade in most climates. This Eurasian plant is commonly cultivated in
North America as it is used in gardens and floral arrangements. It has escaped to open woods in
southern British Columbia and southwestern Ontario. Ivy is also found in fields, old gardens and
urban areas. It has been observed in many forested habitats throughout Surrey climbing high into
mature trees.
Life History:
English Ivy has two life phase. In the first phase, juvenile phase, ivy plant produces aerial roots which
allow the plant to climb and cling to almost any surface, including walls, posts or tree bark. Ivy has
the ability to climb vertical surfaces to heights over 100 feet. If the plant is pruned or maintained at
this early phase it will remain in the juvenile phase and continue to produce stems from the earlier
wood. The second phase is known as the adult or reproductive phase. During this life phase the plant
grows un characteristic oval leaves from stout stem that do not produce aerial roots. Instead the stems
grow out from the surface it has been clinging to and annually produces flowers and umbels of black
fruit.
Ecological Impacts:
English Ivy clings to and climbs other vegetation. As it wraps around trees it can become very dense,
choking (gurdling) the tree and blocking light from reaching the trees leaves. These stresses plus the
added weight to the trees can heavily impact or even kill the tree. Along with Scotch Broom, English
Ivy is heavily impacting the Gerry oak meadow ecosystem of southern Vancouver island as many
native species are eliminated. Ivy can be spotted in many of Surrey's parks engulfing mature trees.
Invasive Potential:
High
Habitat Value: Low
Nesting habitat for birds, discourages soil erosion.
Methods of Removal/Control:
Physical: hand pull, grub up (with shove/spade), shear
Site Rehabilitation:
35
Appendix C
Re-vegetate with native species
Treatment of disturbed soils as a result of removal
Treatment for damages to tree/vegetation resulting from invasive species.
Application of geotextiles
Application of mulch layer
Recommended monitoring and maintenance:
Routine monitoring of reclaimed site for re-sprouting of ivy plants (every 6 months).
If the plant is regularly maintained so that it does not reach the adult phase fruits and flowers will not
be produces. Thus, the plant will not reach the reproductive phase.
Name: Lamiastrum galeobdolon (Lamium maculatum)
Family Name: Mint
Common Name: Yellow Archangel, False Lamium, Dead nettle
Photo:
Description:
This is a semi-evergreen, herbaceous, perennial groundcover. It reaches maturity at about 1-1.5 feet
tall and wide. Its growth habit tends to be in a mat or radiating clump and is at a slow rate. Leaves are
opposite and ovate with an acute tip and are green with silver stripes down the midrib. Flowers are
yellow with a hooded upper petal and lipped lower petal characteristic of the mint family. Stems are
square, somewhat pubescent, and green (http//www.hcs.ohio-state.edu/hcs/TMI/plantlist).
Habitat Type:
It thrives in moist, but well-drained, rich soil in partial shade. However, it is tolerant of heat,
occasionally dry soils, average soils, and soils of various pH levels.
Life History:
This species is native to Europe, however there are similar species to this that are native to North
America. The leaves of this plant emerge in March and grow rapidly throughout April and May.
During the winter months the entire plant slowly dies back to the ground green (http//www.hcs.ohiostate.edu/hcs/TMI/plantlist).
Ecological Impacts:
Nurseries commonly sell these plants in hanging baskets. They often escape from gardens and spread
as a dense ground cover over the forest floor. They out-competes native vegetation, therefore leading
to a loss in plant biodiverity.
Invasive Potential:
High
Habitat Value: Low
Methods of Removal/Control:
Physical: hand pull, grub up (with shove/spade), shear
*no literature found on proper eradication techniques
Site Rehabilitation:
Re-vegetate with native species
Treatment of disturbed soils as a result of removal
Treatment for damages to tree of other vegetation resulting from invasive species.
Application of geotextiles
Application of mulch layer
36
Appendix C
Recommended monitoring and maintenance:
Routine monitoring of reclaimed site for re-sprouting of plant (every 6 months)
Any plant not removed should be regularly maintained/pruned to prevent spread
They should not be purchased for garden plantings in Surrey parks.
Name: Ilex aquifolium
Family Name:
Common Name: Holly, English holly, Christmas holly
Photo:
Description:
This holly is a broadleaf evergreen shrub/tree, 9-15 meters tall, dense, and pyramidal in shape. The
leaves of this plant are 2,5-7.5 cm long and 2-6.5 cm wide. They are dark green and undulating with
spiny margins. Dull, white, fragrant flowers appear in the spring. The fruit of the plant is bright red, 6
mm in diameter and persists into the winter
(http://www.bcc.orsl.edu.horlpm/ilaq-i.htm).
Habitat Type:
Holly can tolerate either sun or shade. Although semi-shade is preferable in mid-summer, the more
light it has the more dense its foliage will be. Holly requires well-drained, slightly acid, fertile soil. It
is found in low elevations on the coastal islands or adjacent mainland (Lyons and Merilees, 1995).
Life History:
The male and female flowers of the holly tree are produced on separate plants. Therefore, both male
and female need to be present for berries to be produced. They need to be within 100 feet of each
other for bees to successfully pollinate the female flowers and thereby produce the bright red berries
that holly is known for (http://www.thegardenhelper.com/holly.html). Although it is a fairly slow
spreading plant it is able to establish a strong foothold in the soil and eventually out-competes other
vegetation types..
Ecological Impacts:
Spread as a dense ground cover over the forest floor over-taking other vegetation resulting in a loss of
biodiversity.
Invasive Potential:
Medium
Habitat Value: Some
Food and nesting source for birds.
Methods of Removal/Control:
Physical: hand pulling, grub up, cutting
(no literature found that suggested specific control/removal techniques)
Site Rehabilitation:
37
Appendix C
Re-vegetate with native species
Treatment of disturbed soils as a result of removal
Application of geotextiles
Application of mulch layer
Recommended monitoring and maintenance
Routine monitoring of reclaimed site for re-sprouting of plant (every 6 months)
Any plant not removed should be regularly maintained/pruned to prevent spread
Name: Impatiens balsamina
Family Name:
Common Name: Himalayan balsam, Snapweed, Touch-me-not
Photo:
Description:
This plant is 1-2 meters tall, flowers in clusters, red-pink to white with yellow spots, 3-4 cm long. Its
stems are hairless, leaves are 6-20 cm long, toothed, opposite or whorled, lanceolate, fruit club shaped,
3 cm long (http://www.rbg.ca/cbcn/i_list.html).
Habitat Type:
This species originates from Europe and is now established in parts of Ontario and British Columbia.
It thrives in moist areas including streambanks, bushy places, grazing grounds
Life History:
Ecological Impact
Invasive Potential:
Medium
Habitat Value:
Methods of Removal/Control:
Physical: dug up or shear
(no literature found that suggested specific control/removal techniques)
Site Rehabilitation:
Re-vegetate with native species
Treatment of disturbed soils as a result of removal
Application of geotextiles
Application of mulch layer
Recommended monitoring and maintenance
Routine monitoring of reclaimed site for re-sprouting of plant (every 6 months)
Name: Vinca minor
Family Name:
Common Name: Periwinkle, Myrtle
Photo:
Description:
Periwinkle is a herbaceous perennial, 30-60 cm high. Its flowers are blue/purple or white and 25-30
mm long. Leaves 25-40 mm long, elliptic, lanceolate and very short-stemmed
(http://www.rbg.ca/cbcn/i_list.html).
38
Appendix C
Habitat Type:
Periwinkle is a Eurasian garden escape that has spread to lawns, roadsides, waste places, and open
woods in southwest British Columbia, and southern Ontario to Nova Scotia. It thrives in moist, rich
soils.
Life History:
Spreads as a ground cover over the forest floor.
Ecological Impacts:
Periwinkle has been rated as a limited invasive of a local nature that is stable, in a Canadian Botanical
Conservation Network (CBCN) survey. It is very limited in impact, however, is capable of excluding
other species and prevents regeneration.
Invasive Potential:
Medium
Habitat Value:
Methods of Removal/Control:
Physical: dig up, cutting, shear
Site Rehabilitation:
Re-vegetate with native species
Treatment of disturbed soils as a result of removal
Application of geotextiles
Application of mulch layers
Recommended monitoring and maintenance
Routine monitoring of reclaimed site for re-sprouting of the plant (every 6 months)
Any plant not removed should be regularly maintained/pruned to prevent spread.
Additional invasive species found in British Columbia
This information was taken from the Canadian Botanical Conservation Network.
Source: http://www.rbg.ca/cbcn/i_list.html
Herbaceous Species
Acinos arvensis
Common Name(s): Mother-of-thyme
Origin : Eurasia
Status : Available
Provincial Location(s) : BC, ON, QC, NF, NB, NS, PEI
Habitat : Roadsides, old fields, waste places
Description : Annual, 10-20 cm tall, purple flowers with white markings, 7-10 mm wide, leaves 5-15 mm long,
ovate to elliptical, petiolate
Usage : Ornamental
Invasive Potential : Potentially invasive
Control Method(s) : girdle, shear and herbicade
Aegopodium podagraria
Common Name(s): Goutweed
Origin : Eurasia
39
Appendix C
Status : Available
Provincial Location(s) : BC, SK, AB, MB, ON, QC, NF, NB, NS
Habitat : Roadsides, waste places, habitations
Description : Perennial, 3-11 dm high, flowers in white, dense clusters, 6-12 cm wide, stems erect, leaves with
long petioles, biternate with 9 leaflets, 2.5-9 cm long
Usage : Weed
Invasive Potential : L
Control Method(s) :hand pull and dig up
Alliaria petiolata
Common Name(s): Garlic mustard, Hedge garlic
Origin : Europe
Status : Available
Provincial Location(s) : BC, ON, QC
Habitat : Roadsides, open woods, near habitations
Description : Biennial, 1 m high, flowering stalk with terminal cluster of white flowers,
Usage : Weed
Invasive Potential : H
Control Method(s) : hand pull, shear, herbicide foliar spray
Additional Comments : Out competes native species, introduced 1879
Artemesia absinthium
Common Name(s): Absinth, Wormwood
Origin : Eurasia
Status : Available
Provincial Location(s) : BC, SK, AB, MB, ON, QC, NF, NB
Habitat : Roadsides, waste places, farm yards, pastures
Description : Perennial, 5-10 dm high, flowers yellow or purple disks, erect stems, leaves in clumps,
silky-hoary, 2-3 pinnately parted
Usage :
Invasive Potential : L
Control Method(s) : dig up and shear
Additional Comments : Primarily a species of disturbed sites
Berteroa incana
Common Name(s): Hoary-alyssum
Origin : Eurasia
Status : Available
Provincial Location(s) : BC, SK, AB, MB, ON, QC, NF, NB, NS
Habitat : Fields, waste places, pastures, meadows
Description : Perennial, 3-7 dm high, white flowers with notched petals, pods with star-shaped hairs,
leaves pale green, alternate, simple, lanceolate
Usage :
Invasive Potential : L
Control Method(s) :dig up and shear
Bromus inermis
Common Name(s): Smooth brome grass
Origin : Europe
Status : Available
Provincial Location(s) : BC, SK, AB, MB
Habitat : Prairies, meadows, roadsides, agricultural areas
Description : Perennial, 2 feet high, flowers in spikelets with 3-7 florets, large tufts
Usage : Grass
40
Appendix C
Invasive Potential : L
Control Method(s) : sheartional Comments : Invades prairies and native grasslands, introduced 1800
Butomus umbellatus
Common Name(s): Flowering Rush
Origin : Eurasia
Status : Available
Provincial Location(s) : BC, AB, MB, ON, QC
Habitat : Shores, inlands, waterways, ditches
Description : Perennial, flowers reddish, white or pink, at top of stalk, short rhizome, leaves 1 m long,
1 cm broad, triangular, pointed
Usage : Wetland
Invasive Potential : L
Control Method(s) : None
Additional Comments : Reproduces by seed production and vegetative spread, introduced 1897
Carduus nutans
Common Name(s): Nodding thistle, Musk thistle
Origin : Eurasia
Status : Available
Provincial Location(s) : BC, SK, AB, MB, ON, QC, NF, NB, NS,
Habitat : Pastures, roadsides, waste places
Description : Biennial, 1-1.5 m high, purple disk flowers, 2 cm long, leaves alternate, stem spiky, erect
Usage : Weed
Invasive Potential : P
Control Method(s) : shear
Additional Comments: Forms dense stands
Centaurea maculosa
Common Name(s): Spotted knapweed
Origin : Europe
Status : Available
Provincial Location(s) : BC, SK, AB, MB, ON, QC, NF
Habitat : Mountain meadows
Description : Biennial, 2-3 feet high, hairy purple flowers, leaves alternate, deeply cut into narrow
divisions
Usage :
Invasive Potential : P
Control Method(s) : dig up, shear
Additional Comments : Forms dense stands
Cirsium arvense
Common Name(s): Canada thistle, Creeping thistle
Origin : Europe
Status : Available
Provincial Location(s) : BC, SK, AB, MB, ON, QC, NF, NS, NB
Habitat : Roadsides, prairies, savannas, agricultural areas
Description : Perennial, 4 Feet high, flowers rose-purple, pink or white, numerous heads, stems erect
and green , leaves alternate, irregularly lobed, spiny toothed
Usage : Weed
Invasive Potential : L
Control Method(s) : dig up, shear
Additional Comments : Crowds out native species, allelopathic, introduced 1700's
41
Appendix C
Convallaria majalis
Common Name(s): Lily-of-the-valley
Origin : Eurasia
Status : Available
Provincial Location(s) :
Habitat : Roadsides, abandoned yards, meadows
Description : Perennial, 5-20 cm high, perianth bell-shaped, white, small, nodding, leaves 2-3 basal ,
oblong, dark green, heart-shaped, pale red berries, 3-4 mm long
Usage : Ornamental
Invasive Potential : L
Control Method(s) : dig up
Additional Comments : Spreads vegetatively, poisonous when eaten
Dipsacus fullonum
Common Name(s): Teasel
Origin : Europe
Status : Available
Provincial Location(s) : BC, ON, QC
Habitat : Pastures, old fields, waste places
Description : Biennial, 2-6 feet high, flowers pink on egg-shaped pincushion, spiny stem, leaves
opposite, 3-6 cm long, narrow
Usage :
Invasive Potential : L
Control Method(s) :hand pull, dig up
Euphorbia esula
Common Name(s): Leafy spurge, Wolf's milk, Faitour's Grass
Origin : Europe
Status :
Provincial Location(s) : BC, SK, AB, MB, ON, QC, NS, PEI
Habitat : Fields, pastures, roadsides
Description : Perennial, 2-6 feet, flowers greenish yellow, grouped or scattered, leaves spirally
arranged, 1-3 inches long
Usage : Weed
Invasive Potential : H
Control Method(s) : shear
Additional Comments : Poisonous to livestock, reproduces vegetatively, introduced 1800's
Galium mollugo
Common Name(s): White bedstraw, Cleavers, Wild madder
Origin : Eurasia
Status : Available
Provincial Location(s) : BC, ON, QC, NF, NB, NS,
Habitat : Fields and roadsides, meadows, waste places
Description : Perennial, 4-10 dm high, white terminal flowers, stem erect, branched, 8 leaves in a
whorl on stem
Usage : Grass
Invasive Potential : P
Control Method(s) :shear
Hesperis matronalis
Common Name(s): Dame's rocket, Dame's violet
Origin : Eurasia
Status : Available
42
Appendix C
Provincial Location(s) : BC, SK, AB, MB, ON, QC, NF, NS, PEI
Habitat : Roadsides, thickets, open woods
Description : Perennial, 40-90 cm high, flowers violet or white, stem hairy, leaves simple, oblong,
ovate, hairy
Usage : Ornamental
Invasive Potential : L
Control Method(s) : i_control.html - control
Additional Comments : Frequently added to wildflower mixes
Hypericum perforatum
Common Name(s): St. John's Wort, Rosin rose, Tipton-weed
Origin : Europe
Status : Available
Provincial Location(s) : BC, ON, QC, NF, NS
Habitat : Meadows, forest openings, agricultural areas
Description : Perennial, 3-8 dm high, flowers numerous, yellow with black dots on margin, very leafy,
opposite, simple, broad, less than 1 cm long leaves, red or purplish fruits
Usage :
Invasive Potential : L
Control Method(s) : dig up, shear
Additional Comments : May poison livestock, introduced 1793
Iris pseudacorus
Common Name(s): Yellow flag
Origin :
Status : Available
Provincial Location(s) : BC, SK, AB, MB, ON, QC, NF, NB, NS
Habitat : Wetlands, ditches, marshes
Description : Perennial, 0.5-1 m high, large yellow flowers, thick branches rhizome, sword-shpaed
leaves, 2 cm broad
Usage : Ornamental
Invasive Potential : P
Control Method(s) :dig up
Melilotus alba
Common Name(s): White sweet clover, Honey clover
Origin : Eurasia
Status : Available
Provincial Location(s) : BC, SK, AB, MB, ON, QC, NF
Habitat : Prairies, roadsides, meadows, agricultural lands
Description : Biennial, 1-2 m high, white flowers on spike like racemes, leaves laternate, trifoliate
Usage : Forage crop
Invasive Potential : L
Control Method(s) : hand pull, dig up
Additional Comments : Primarily species of disturbed sites
Melilotus officinalis
Common Name(s): Yellow sweet clover
Origin : Eurasia
Status : Available
Provincial Location(s) : BC, SK, AB, MB, ON, QC, NF
Habitat : Prairies, roadsides, meadows, agricultural lands
Description : Biennial, 1-2 m high, yellow flowers on spike like racemes, leaves laternate, trifoliate
Usage : Forage crop
43
Appendix C
Invasive Potential : L
Control Method(s) : hand pull, dig up
Additional Comments : Primarily species of disturbed sites
Myriophyllum spicatum
Common Name(s): Eurasian water milfoil, Spiked water milfoil
Origin : Eurasia
Status : Available
Provincial Location(s) : BC, ON, QC
Habitat : Ponds and streams, stagnant and running water
Description : Perennial, 5 cm high, flowers in whorls of 4, leaves in whorls of 4
Usage : Wetland
Invasive Potential : H
Control Method(s) : hand pull, increase drainage
Additional Comments : Spreads vegetatively, displaces all other species, introduced 1960
Origanum vulgare
Common Name(s): Wild marjoram, Wintersweet, Organdy
Origin : Eurasia
Status : Available
Provincial Location(s) : BC, ON, QC, NF, NB, NS
Habitat : Roadsides, old fields, open woods
Description : Perennial, 2-6 dm high, flowers in spiky clusters with large purplish bracts, stems erect or
ascending, branched above
Usage : Ornamental
Invasive Potential : P
Control Method(s) :dig up
Phragmites communis
Common Name(s): Common reed, Reed grass
Origin : Europe
Status : Available
Provincial Location(s) : BC, AB, SK, MB, ON, QC, NB, YT, NT
Habitat : Marshes, ditches, ponds
Description : Perennial, 1-4 m high, tufted spike with white flowers, leaves attached by loose sheath
Usage : Grass
Invasive Potential : L
Control Method(s) : shear
Additional Comments : Forms sterile mats
Poa compressa
Common Name(s): Canada blue grass
Origin : Eurasia
Status : Available
Provincial Location(s) : BC, AB, SK, MB, ON, QC, NF, NB, NS, YT, NT, PEI
Habitat : Dry soils, sand dunes
Description : Perennial, 15-40 cm high, flowers dense, spike like, 5-12 cm long, stems erect, runners
Usage : Grass
Invasive Potential : P
Control Method(s) :shear, herbicide foliar spray
Poa pratensis
Common Name(s): Kentucky blue grass
Origin : Eurasia
44
Appendix C
Status : Available
Provincial Location(s) : BC, AB, SK, MB, ON, QC, NF, NB, NS, YT
Habitat : Moist to dry soils, open woods, meadows
Description : Perennial, 30-100 cm high, 3-5 flowered spikelets, 3-6 mm long, tufted, stems erect,
blades lfat or folded, 2-4 mm wide
Usage : Grass
Invasive Potential : P
Control Method(s) : shear, hebicide foliar spray
Shrubs
Viburnum opulus
Common Name(s) : Guelder rose, European highbush cranberry
Origin : Eurasia
Status : Available
Provincial Location : BC, SK, AB, MB, ON, QC, NF
Habitat : Swamps and bogs, along streams, open woods, thickets
Description: 5 m high, yellow or white flowers, leaves opposite, 3 lobed, bright red berries
Invasive Potential : L
Usage : Ornamental
Control Methods : Girdle, shear and herbicide
Additional Comments : Shunned by wildlife, unpleasant taste
Cynanchum nigrum
Common Name(s) : Dog-strangling vine, Black swallowort
Origin : Europe
Status : Available
Provincial Location : BC, ON, QC
Habitat : Old fields, pastures, fence rows, waste places
Description: Perennial, 5-15 dm high, 5 lobed purple flowers, stems twining, leaves opposite, simple,
petioled, 8 cm long
Invasive Potential : H
Usage :
Control Methods : hand pull, dig up
Trees
Betula pendula
Common Name(s) : Silver birch, European white birch
Origin : Europe
Status : Available
Provincial Location(s) : BC, MB, ON, NS, PEI
Habitat : Disturbed quarries and bogs, wetlands
Description : 15 m high, flowers in long slender catkins, leaves 3-7 cm long, triangular or ovate,
hairless, double-toothed, cones 2-4 cm long
Usage : Landscaping, Ornamental
Invasive Potential : L
Control Method(s) : girdle, shear and herbicide
Additional Comments : Displaces native flora, overshades
Pinus sylvestris
Common Name(s) : Scots pine, Scotch pine
Origin : Europe
Status : Available
Provincial Location(s) : BC, SK, AB, MB, ON, QC, NF, NB, NS, PEI
Habitat : Old fields, roadsides, open bogs, open woods
45
Appendix C
Description : 30 m high, needles evergreen, bundles of 2, 4-8 cm long, blue-green, cones conical to
ovoid, 2.5-7 cm long
Usage : Landscaping, Ornamental
Invasive Potential : L
Control Method(s) : girdle, shear and herbicide
Additional Comments : Useless for most purposes
Populus alba
Common Name(s) : White poplar
Origin : Europe
Status : Available
Provincial Location(s) : BC, AB, SK, MB, ON, QC, NF
Habitat : Beach habitats, urban areas
Description : 30 m high, flowering catkins producing pollen, pre formed rhomboidal leaves, 3-5 lobed,
blue-green
Usage : Ornamental
Invasive Potential : L
Control Method(s) : girdle, shear and herbicide
Additional Comments : Spreads vegetatively, hybridizes with native species
Rhamnus cathartica
Common Name(s) : European buckthorn, Common buckthorn
Origin : Europe
Status : Available
Provincial Location(s) : BC, SK, ON, QC, NS, PEI
Habitat : Open woods, pastures, fence rows
Description : 6-15 feet high, small green flowers, grouped or solitary, thorny, leaves 1-2 inches long,
opposite, fruits green changing to black
Usage : Ornamental
Invasive Potential : H
Control Method(s) : girdle, shear and herbicide
Additional Comments : Excludes all native seedlings, spread by birds, introduced before 1913
Summary of Control Removal Techniques
Note: This is a general list. Techniques may vary depending on species, size of infestation, season
and site characteristics.
Impact of each method should be considered before techniques are implemented.
Method
Physical
Style
Details
hand pull
-pull up stalk at ground level
-do before seed set begins
-easier to remove root when ground
is moist
grub up
-use spade/shovel to loosen soil and
dig up root system
shear
-cut stems close to ground level
with snipper, shears, or chain saw
Notes
-remove root or resprouting may
occur
-any stems left to flower may reseed site
- re-sprouting may occur if entire
root is not remove
-may cause soil disturbance
-suckers may emerge if not treated
with herbicide
46
Appendix C
Method
Mechanical
Chemical
Biological
Mix of
Controls
Style
Details
Notes
girdle
-remove bark and phloem layer for
10 cm band around trunk
-don't damage xylem layer, may
encourage suckering
-check girdle for re-development of
bark
increase
drainage
grade dirt around area, create
alternate water drainage paths
may cause site disturbance
burning
burn entire infestation
mowing
disking
plowing
need to be done regularly/frequent
-up-roots plants
-may cause some seeds to
germinate
-damages other vegetation
-compacts soil
disturbed soil
-use caution
-spray exotic species when other
species are dormant if possible
herbicide
dispense from squirt bottle or
backpack sprayer
herb/shear
-cut stem with shears, chain saw
-apply herbicide from squirt bottle
monitor and retreat if necessary
insects
-weevil: used on Purple loosestrife
- fungi: used on Scotch broom
-site and species specific
-extensive research is needed before
this method is implemented
-use of two or more of these
methods
Source <http://www.rbg.ca/cbcn/i_control.html>
47
References
References
Guard, B.J. Wetland Plants of Oregon and Washington. Alberta: Lone Pine Publishing,
1995.
Lyons, C.P., and B. Merilees. Trees, Shrubs, and Flowers to Know in British Columbia and
Washington. Alberta: Lone Pine Publishing, 1995.
Pojar, J., and A MacKinnon. Plants of Coastal British Columbia Including Washington,
Oregon and Alaska. Alberta: Lone Pine Publishing, 1994.
Lyons, K. Field Bindweed. The Nature Conservancy. Virginia: [].
<http://tncweeds.ucdavis.edu/esadocs/polyasp.html>
Seiger, L. Japanese Knotweed. The Nature Conservancy. Virginia: [].
<http://tncweeds.ucdavis.edu/esadocs/convarve.html>
<http://www.rbg.ca/cbcn/I_control.html>
<http://www.rbg.ca/cbcn/I_control.html>
<http://tncweeds.ucdavis.edu/esadocs/documnts/rubidis.html>
<http://tncweeds.ucdavis.edu/esadocs/documnts/rubidis.html>
<http://infoweb.magi.com/~ehaber/bc_broom.html>
<http://infoweb.magi.com/~ehaber/bc_broom.html>
<http://webriver.com.tn-eppc/manual/lythru.htm>
<http://webriver.com.tn-eppc/manual/lythru.htm>
<http://tncweeds.ucdavis.edu>
<http://tncweeds.ucdavis.edu>
<http://www.hcs.ohio-state.edu/hcs/TMI/plantlist>
<http://www.bcc.orsl.edu.horlpm/ilaq-i.htm>
<http://www.bcc.orsl.edu.horlpm/ilaq-i.htm>
<http://www.rbg.ca/cbcn/I_list.html>
48